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06762 (AR)
T4ht 4 P.O. BOX 1504 No. 06752 Building 78-105 CALLE ESTADO Address 51-200 Obiaf�o LA QUINTA, CALIFORNIA 92253 Owner Kevin S Pam-]saMer BUILDING:- TYPE CONST. OCC: GRP. Mailing Address S 7WI32-004 -- A.P. Number City Zip Tel. La €juluta . 92253 _ Legal Description Contractor Project Description Room addition utility permit Owner/Builder Address City Zip Tela State Lic. City & Classif. Lic. # Sq. Ft. _ � l i No. No. Dw. Arch.; Engr., Size Stories Units Designer New ❑ Add ❑ Alter ❑ Repair ❑ Demolition ❑ Address Tel. City Zip State Lic. # LICENSED CONTRACTOR'S DECLARATION I hereby affirm that I am licensed under provisions of Chapter 9 (commencing with Section effect. Division 3 of the Business and Professions Cade, and mylicense is in full force and SIGNATURE DATE 2? OWNER -BUILDER DECLARATION Estimated Valuation e`et I hereby affirm that I am exempt from the Contractors License Law for the following $17,568 reason: (sec. 7031.S,Business and Professions Code: Any city or county which requires a permit to construct, after, improve, demolish, or repair any structure, prior to Its issuance also the prroovisions othe f the Aw for such License LawNChapera9 (ccommencing he with Sectiiopursuant e o of of PERMIT AMOUNT Divism 3 of the Business and Professions Code, or that. he is exempt therefrom, and the basis for the alleged exemption- Any violation of Section 7031.5 by 'any applicant for a permit Plan Chk. Dep. subjects the applicant to a chd pernalty of not more than five hundred dollars ($500). ❑ I, as owner of the property, or my employees with wages as their sole compensation, will Plan Chk. Bal.$122.85 do the work, and the structure is not intended or offered for sale. (Sec. 7044, Suisness and tf (� Aft Professions Cade: The Contractor's License Law does not apply to an owner of property who Const. 189.00 builds or improves thereon and who does such work himself or through his own employees, Mech. 1 n provided that such improvements are not intended or offered for sale. g, however, the building 15.00 or improvement is sold within one year of completion, the owner -budder will have the burden Electrical I� iJ0 of proving that he did not build or brprove for the purpose of sale.) • ❑ I, as owner of the property, am exclusively contracting with licensed contractors to con- Plumbing struct the project (Sec. 7044, Business and Professions Code: The Contractor's License Law does not apply to an owner of property who builds or improves thereon, and who contracts for S.M.I. 1.26 such projects with a contractor(s) licensed pursuant to the Contractor's License Law.) Grading ❑ I am exempt under Sea B. 8 P.C. for this reason Driveway Enc. Date Owner Infrastructure WORKERS' COMPENSATION DECLARATION I hereby affirm that I have a certificate of consent to self -insure, or a certificate of Workers Compensation Insurance, or a certified copy thereof. (Sec. 3800, Labor Code.) Policy No Company ❑ Copy is filed with the city. ❑ Certified copy is hereby fumished. TOTAL $343.11 CERTIFICATE OF EXEMPTION FROM REMARKS WORKERS' COMPENSATION INSURANCE (This section need not be completed d the permit is for one hundred dollars ($100) valuation or less.) I certify that in the performance of the work for which this permit is issued, I shall not employ any person in any manner so as to become subject to the Workers' Compensation Laws of California Date Owner NOTICE TO APPLICANT: 8, after making this Certificate of Exemption you should become ZONE: BY: subject to the Workers' Compensation provisions of the Labor Code, you must forthwith Comply with such Provisions or this pemtit shall be deemed revoked. Minimum Setback Distances: Front Setback from Center Line Rear Setback from Rear Prop. Line CONSTRUCTION LENDING AGENCY Side Street Setback from Center Line 1 hereby affirm that there is a construction lending agency for the performance of the work for which this permit is issued- (Sec. 3097, circ code.) Side Setback from Property Line Lenders Name Lenders Address FINAL DATE INSPECTOR This is a building permit when property filled out, signed and validated, and is subject to expiration if work thereunder is suspended for 1110 days. iZ / iS jIS9 I certify that I have nod this application and state that the above information is correct. Issued by: Date Permit I agree to comply with all city and county ordinances and state laws relating to building construction, and hereby authorize representatives of this city to enter the above-. mentioned property for inspection purposes. Validated by: Signature of applicant Date Mailing.Add Validation: City, State, zip CONSTRUCTION ESTIMATE NO. ELECTRICAL FEES PLUMBING FEES 1ST FL. SO. FT. ® $ UNITS r SLAB GRADE YARD SPKLR SYSTEM 2ND FL SQ. FT. HEATING (ROUGH) STORAGE TANK FORMS MOBILEHOME SVC. BAR SINK POR. SQ. FT. ® DUCT WORK ROCK STORAGE FOUND. REINF. POWER OUTLET ROOF DRAINS GAR. SQ. FT. ® HEATING (FINAL) OTHER APPJEQUIP. REINF. STEEL DRAINAGE PIPING CAR P. SQ. FT. ® WALL SQ. FT. DRINKING FOUNTAIN. SERVICE FINAL INSP. URINAL SQ FT ® WATER SYSTEM ESTIMATED CONSTRUCTION VALUATION $ GRADING cu. yd. $ plus x$ WATER PIPING NOTE: Not to be used as property tax valuation FLOOR DRAIN MECHANICAL FEES FINAL INSP. WATER SOFTENER VENT SYSTEM FAN EVAP.COOL HOOD SIGN WASHER(AUTO)(DISH) APPLIANCE DRYER GARBAGE DISPOSAL FURNACE UNIT WALL FLOOR SUSPENDED LAUNDRY TRAY AIR HANDLING UNIT CFM KITCHEN SINK ABSORPTION SYSTEM B.T.U. TEMP USE PERMIT SVC WATER CLOSET' COMPRESSOR HP POLE,TEM/PERM LAVATORY HEATING SYSTEM FORCED GRAVITY AMPERES SERV ENT SHOWER BOILER. B.T.U. SQ. FT. ® c BATH TUB SQ. FT. ® c WATER HEATER MAX. HEATER OUTPUT, B.T.U. SQ. FT. RESID ® 11A c SEWAGE DISPOSAL SO.FT.GAR ® 3/ic HOUSE SEWER INSULATION/SOUND GAS PIPING PERMIT FEE PERMIT FEE PERMIT FEE DBL TOTAL FEES MICRO FEE MECH.FEE PL.CK.FEE CONST. FEE ELECT. FEE SMI FEE PLUMB. FEE STRUCTURE I PLUMBING ELECTRICAL HEATING a AIR COND. SOLAR SETBACK GROUND PLUMBING UNDERGROUND A.C. UNIT COLL. AREA SLAB GRADE ROUGH PLUMB. BONDING HEATING (ROUGH) STORAGE TANK FORMS SEWER OR SEPTIC TANK ROUGH WIRING. DUCT WORK ROCK STORAGE FOUND. REINF. GAS (ROUGH) METER LOOP HEATING (FINAL) OTHER APPJEQUIP. REINF. STEEL GAS (FINAL) TEMP. POLE ' GROUT WATER HEATER SERVICE FINAL INSP. BOND BEAM WATER SYSTEM GRADING cu. yd. $ plus x$ =$ LUMBER GR. FINAL INSP. 3 l FRAMING FINAL INSP. ROOFING REMARKS: VENTILATION FIRE ZONE ROOFING FIREPLACE SPARK ARRESTOR GAR. FIREWALL LATHING MESH INSULATION/SOUND FINISH GRADING FINAL INSPECTION 2 O� CERT. OCC. FENCE FINAL INSPECTOR'S SIGNATURES11NITIALS. GARDEN WALL FINAL r' r DESERT SANDS UNIFIED SCHOOL DISTRICT 82-879 Highway 111 .,v dio, CA 92201 iC"E-RiTIFICATE OF SCHOOL FACILITY FEE WAIVER . �WSID T 01 C` CGI,t/ti<— . DATE: This is to certify that developer of which is located at within this school district, is not re uired to pay school facil ty fees pursuant to the authority generated by Government Code Section 53080. Building permits for the project indicated above may now be issued by your jurisdiction. for DESERT'SAN S UNIFIED SCHOOL DISTRICT White -Building Department Yellow -Facilities Planning Pink -Developer (10)-38 . woos Tr✓g5 sys;, a,t" o. c . overhh„, y fAc' 'A Td Ex., a�T: na CACP. FILL ,518” GOx � L y w �e r P e. r. b: C. v L ft f' rv8se S n A; Li C�a k�f' 6"'0C., b6dn'0P!ry F;e-D Tip ?ooT over }Aper i iZnro� Fn.:n 1 R? -b vkt� A ncrlor' T!> c) LT -5 SL.O;b A'r PLL new uJNwS roOF FrF,m'+r16 on AODi'�O� To bC- TruSS spAnt..e) 3/17- .T4►-, w:Th -'FL T Jerroo-1 PRINTED ON 1000H CLEARPRINT I (o' -O" x (o' 8" 6L;Der p;�;n' ZODM D� VPnT Pro po ae.i�) / p,Z�'iJiTioro - - ` -rh: s LaT noT ib se..r.LC_ m \rtj ------T i r } �- �CtLocr+sCII wR�Q.r Sp�us gas. ALL TKP EE NfW� 1 WhLI-S r0 C6C 4 STuos 1&" o. C. to/ 4-.Y4 / PKtSSuRt TNEP'TP-t SILL. 1 T i 'pLRrE. Ar,.Z::� R-19 Barr 'f" j nSuLA`r;0(1. ThpC.O COLaT STu CGo o u-rs; t�,E To mATc.►•r f i�S;Dr w;Tti. 5ir�:LAr 7re C -e i L: REMovr- LX+',STin& STUCCO r` A'r CATc-r;or wA6.t_ Whe-r2 fanD b r Y w A 1-c- . a Fvrr LwALL fix. t`L.)SKI'S4'-AM ���� OA LX;S'r;AS SL Der EXs'�Tiv>U TO he move' - Kul ocRie w+�Ter l�_ Sr+�iCpT Ou i $�aG j Remove This JA" i:L✓9h To c.eiL*'n� See De`. A �Xi s I i►�� 110MC F/OOR PLAN ti Coi�,'z;Pu /3z = -+ vL:�r;1Y LA rt s I C v7 3 new .4x10 DF epk .T TA; L$ FLvsh f� %a.' = l' De t. 'A'; i1 S7 q LL TFT Z.1$ EXiST;n•, Truss e T' a F wPFLL To bg, Re flr\o veD AS rN oTe-D cry F Lo o r I"7 LA o0 new A -I xy POSTS Ul/ pG L 1i Zone,_ PT TOP I l Ll., co = L O J O N!I Q j Q. •� � O CC •� r(�` L1 SOuth ELevatiOn 11 PRINTED ON 10001-1 CLEARPRINT Section Qc,;nTeD FAr�R I-russ roof P*eSSur� T'rC?g1C� co j>L-ATE 4 1 T I T L E G 4 ENERGY CONSE'F:V —r I ON STA=IN DAR D' -:- R ES C?ES I DENT IAL- COMPL I ►^-+NC PORTFOL I O i Prepared for: Project: Prepared by: P A T K E L L E.`f E L E C T R I C H EAT I •N G x AIR C 0 N D-1 T I 0 N I N' G 82-192 Sierra Avenue Ind i o,. t0A. 92201 (619) 347-5233 STATE LIC. # 376505 Signed by: COMPUTER METHOD SUMMARY File: NONE Page 1 of 3- CF -2R Project Title KEVIN & PAM_ MOSER, ; Date: 12/11/89 Project Address ADDITION muth Zone=HOUSE, NEW Surfaces Yes ----- IGuilding Permit #1 Documentation Author PAT KELLEY I I Telephone 1-619-3.47-5233 { ; IPlan I Check / Datel I Compliance Method EASY CALC 010189A IField Check/ Datel Climate Zone 15 I I 0.092 R-11 270 ROOF 0.0 ENERGY USE SUMMARY (kBtu/sf=yr). Energy Use Standard Design Heating Cooling Venting Hot Water Total GENERAL INFORMATION 4.98 40.33 0.00 9.34 54.65 Proposed Design 0.36_ 0.00 5.85 44.82 Conditioned F,1oor Area: 2002 sf' Building Type: Single-Family'Detached Building Front Orientation: 0 azimuth•(north) Number of Dwel 1 i ng Units: 1 Building Latitude 33.5 Floor Construction Type: SLAB Number of Building Zones: 1 Total Volume: 16016 cf Conditioned Footp'rint: 2002 sf Ground Floor Area: 2002 sf BUILDING ZONE INFORMATION Floor Condi- Zone Area Volume tione-d Name (sf) • (cf) (Y/N) HOUSE 2002 16016 Yes - OPAQUE SURFACES WITH SOLAR GAINS Actual Surface Area 6ALL01' Insul Azi- Type -------- (sf) ------- U -Val ----- R -Val muth Zone=HOUSE, NEW Surfaces Yes ----- ---- NWALL 135.0 0.0512 R=11 0 EWALL 320.0 0.092 R711 90 SWALL 512.0 0.092 R-11 180 WWALL 302.0 0.092 R-11 270 ROOF 0.0 0.035 R-30 180 DOOR 56.0 0.330 R-7 180 Infil- tration Coo trol STANDARD Solar Form 3 Tilt Gains Ref. Location/Comments ---- ------------- ------------------ 90 , Yes 6ALL01' EXTERIOR WALL 90 Yes WALL01 EXTERIOR WALL 90 Yes WALL01 EXTERIOR WALL 90 Yes- WALL01 EXTERIOR WALL 90 Yes ROOF01 ROOF W/ ATTIC 90 '`fes DOOR01 TYPICAL DOOR COMFUTER METHOD SUMMARY File: NONE � Page 2 of 3 CF -2R Project Title KEVIN & PAM MOSER Surface Date: 12/11!89 OPAQUE SURFACES WITHOUT SOLAR GAINS. Opening Charactr• Surface Area Insul Form 3 mu t h Type (sf) U -Value R -Value Ref. Location/Comments Zone=HOUSE, NEW Surfaces NEW Surfaces -%SC '--- - HSECRLFL 2002.0. 0.030 R-38 FLOORI FLOOR,I@ CRAWLSPACE INTWALL 151.0 0.090 P.-19 WAL15 GARAGE WALL SLABEDGE 146.0 0.'750 R-0 FLOOR2 SLAB EDGE' GLAZING SURFACES GLAZING CHARACTERISTICS Glazing Charac tr• Glazing Actual Name -------- Glazing Glazing. Surface Area Az i - DBL02 Opening Charactr• .Tr•eatmn t. Type (sf) mu t h Tilt Type' Name Name"' Zone=HOUSE, NEW Surfaces -%SC '--- - 0.60 0.77 NGLASS 65.0 0 90 SLIDER DBLO1 OVERHNG2 EGL:ASS 2.4.0 90 90 SLIDER DBL01 OVERHNG2 SGLASS 120.0 180 90 SLIDER DBL01, OVEP.HNH2 WGLASS 18.0 2270 90 SLIDER `DBL01' OVERHNG2 GLAZING CHARACTERISTICS Glazing Charac tr• Glazing Frame Name -------- Type -------- Type -------- DBLO1 DBL01 METAL DBL02 DBL02 METAL DBLO3 DBLO3 WOOD SINGLE SINGLE METAL EXTSHADE EXTSHADE METAL Sol ar ;Gain Targeting Mass Winter- Summer Name-, Fr• ac t . Fr• ac t . GLAZING TREATMENTS (Overhangs, Shading Schedules, and Shutters) Treat- SC Interior SC Exterior Shut. Shutter (shade 'Shade.. (shade Shade Ext. U-wal Schedule Type closed) Type Name ----- .open) ; -------- ---- -------- -%SC '--- - 0.60 0.77 STANDDRP 0.66 NONE 1.0 0.60 : 0•.77 STANDDRP , 0.66 NONE 1.00 0.60 0.67 STANDDP.P 0.57 NONE 1.00 1.10 0.85 STANDDRP 0.80 NONE 1.00 0.60 0.77- EXTSCRthl 0.66 NONE 0.36 GLAZING TREATMENTS (Overhangs, Shading Schedules, and Shutters) Treat- Overhang Shading 'Shut. Shut. Shutter ment Window -------------- -Sched. U- Trans. Schedule Name Height Extens. Height Name Value Factor Name OVERHNGI 4.00 1.50 0.75 NONE 0.000 0.00 NONE OVERHNG2 5.00 2.50 0.75 NONE 0.000 0.00 - NONE THERMAL MASS Mass Area Thick - Name (sf) ness Zone=HOUSE, NEW Surfaces SLABEXP 502.0, 3.5 SLABCRPT 1500.0 3.5 Heat Cap- acity 28 28 Iasi de Conduc- -Surface .Form 3 t'iyi ty R -Value Ref. 0.98 0 0.98 2 - 4 NONE NONE Loc at i cm/commen is ----------------- EXP SLAB ON GRADE CRPT SLAB ON GRADE .i . .COMPUTER METHOD SUMMARY 'File: NONE Page 3 of 3 CF -2R Project Title KEVIN PAM MOSER° Date: 12/11/89 --------------------------------- --------------------------------------------- HVAC SYSTEMS System Equipment Duct Duct' Type Efficiency Location' R -Value. Zane=HOUSE, NEW Systems HEATPUMP 6.85 SE ATTIC 6.3 HEATPUMP 9.0 SEER ATTIC 6.3 r VENTILATION SYSTEMS Vent. Fan Fan Temp- 'Add n' 1 Addn', 1 T System Flow Power DJ f .- Vent He i gh.t. Name (cfm) (W/cfm) (deg.F)'.Area, Diff. -------- ----- -------- --------- ------ NATURAL 0 0.00 0 '0.0 0.0 MATER HEATING SYSTEMS , # of Units Capa- Rcrvy P,tiercent Input Energy System Type Systems Served -city Eff .. St•andbY Rat i n',g ;Pi 1 of Factor Credits '------------------=---- ------ ----- ----------- ---=--t-- - -- ------------- Gas Storage 1 1 50 99.50 1:00 ,4000 q. NONE y ar • 1 t ' r - . t f ` t r 7 �: CERT'I FI CATE OF ,COMPLIANCE REL I DENTIAL' �' 4 ` Page 1 of 2 CF -IR ------------------------------------------------------------------------------ Project Title KEVIN 8• -PAM MOSER Date.:- 12/11/89 Project Address. ADDITION 18uilding Pe:rm.it #1 Documentation Author, PAT 'KELLEY I' 1 Telephone 1-619-347=5233 lPlan Check / Datel Compliance Method EASY CALC 010189A (Field Check/ Datel Climate Zone 15 GENERAL INFORMATION Conditioned Floor Area: 2002 sf• Building Type Single -Family Detached Building Front Orientation: 0 azimuth (north) Number of Dwe l 1 i ng..Un i ts: ` 1 Building Latitude 33:5, Floor Construction TYpe: SLAB Infiltration Contr•ol: 'STANDARD . BUILDING SHELL INSULATION Component Insul Name R -value Location/Comments --------------- WALL01 -------- ------------------ R-11 EXTERIOR WALL ROOF01 R-30. ROOF, W/ -ATT I C DOOR01 R-7 •TYPICAL DOOR `! FLOOR 1 R-38 FLOOR @ CR.AWLSPACE , WALL5 R-19 .GARAGE WALL. FLOOR2 R -0 -SLAB EDGE. GLAZING Shading Deices, Glazing Area � • G1 ass --=-----'=-------- GUerhang 4Fr•am i ng - Or i en tat i on C sf) Type Interior Exterior (yes/no) Type Front (North) 65.0 DBL01 STANDDRP NONE OVERHNG2 METAL Right (East) 24.tJ DBL01 —STANDGRP NONE OVERHNG2 METAL Back (South) 120.0 DBL01-STANbDRP NONE OVERHNH2 METAL Left (West) 18:0 D.BL01 STi,NDDRP NONE -OVERHNG2-METAL THERMAL MASS Area Thicknes=_. Type/Covering (sf) '(inches) Loca.t i on/Desc,r i p -tion ' SLABEXP 502..0 3.5 EXP SLAB ON GRADE SLABCRPT 1500.0 .3..5 CRPT-SLAB:ON GRADE CERTIFICATE OF COMPLIANCE: RESIDENTIAL Page 2 of 2 CF -1R Project Title KEVIN & PAM MOSER Date: 12/11/39 HVAC SYSTEMS System Equipment Duct Duct ---- (or approved equal) --------- Type Efficiency Location R -Value Output Manufacturer/Model Number HEATPUMP 6.35'SE• ATTIC 5.3 43000 MAGIC CHEF HEATPUMP 9.0 SEER ATTIC 6.3 45000 MAGIC CHEF.P342PSI CEC Maximum Furnace Output: 43000 Btuh Zonally Controlled HVAC? No WATER, HEATING SYSTEMS Tank ----(or approved equal) ----- System Type Capacity Manufacturer/Madel Number Special Features ---------------- -------- -- 7 -------------------------- ----------------------- Gas Storage 50 NONE . NONE COMPLIANCE STATEMENT This certificate of -compliance lists the building features and performance specifications needed to comply with,Title'24, Chapter 2-53 and Title 20, Chapter S, Subchapter 4, Article 1 of the California Administrative code. This certificate has been signed by the individual with overall design responsibility and the building•owner, who shalilretain a copy of it and then transmit the certificate to any subsequent purchaser of the building. When this certificate of compliance is submitted for a single building plan to be built in multiple orientations, all building conservation features which vary are indicated in the Special Features/Remarks section. DESIGNER: Name: Company: Address: Telephone: Lic #• S i fined (date) DOCUMENTATION AUTHOR Name: PAT KELLEY Company: Pat Kelley Address: 32-192 SIERRA INDIO, CA 92201 Telephone: 1-519-347-5233 S i gned (date) OWNER: Name: Company: Address: Telephone: '' Si gned (date) ENFORCEMENT AGENCY, Name Title: Agency: Telephone: Si gned (date) Page 1 < < < Date -12/11/89, User -PAT -KELLEY , Programr FORMAT > > > PurrKEVIN & PAM MOSER, Project -ADDITION Filer NONE CONTROL DATA 1.1 RUN DATA 1> RUN TITLE (25 characters maximum) ....... , ..... KEVIN '& PAM MOSEP, 2> PROJECT TITLE (25 characters maximum) ..... ADDITION 3> OWNER'S NAME (25 characters maximum) ....... ..... KEVIN'-& PAM MOSER 4> SITE LOCATION (25 characters maximum) .•............. ...:. 51 20,0 CALLE OBI.SPO LA CSU 6 5> COMMENT TEXT (70 char•.acters maximum) ............. ..... N/A 6> COMMENT TEXT (70 characters maximum) .. .............. ..... N/A 7> COMMENT TEXT (70 characters maximum) .............. ..... N/A 1 . 2 SITE AND WEATHER. DATA 1> BUILDING LATITUDE (decimal- deg.) 33.5 2> BUILDING ROTATION (deg., 0 to X50, O=N, 90=E, etc.'?: 0 3> NUMBER OF WARMUP.DAYS (3 min, 10 max),: .:...:o..:..: 5 . 4> WEATHER DATA FILE NAME (CTZI2RY,. etc.) ..........CTZ15RY 1.3 CUSTOM BUDGET DATA 1> CUSTOM BUDGET INDICATOR. ('Y, N, A, or B') ......... Y` 2> BUILDING TYPE (SINGLE, CLUSTER, MULTIPLE) ....... SINGLE 3> FOOTPRINT AREA (square feet) ..• .. .... 2002 4> NUMBER OF CONDITIONED FLOORS (Whole number =>1): .. 1 5> NUMBER OF DWELLING UNITS (Whole number.>= 1) : 1 6> ENTRY DOOR ORIENTATION (Or• i entat,i on of.Door ) - : ..... 0 7> AREA OF ADDITION (squar•e:feet) . .... ............... 0' 1.4 SIMULATION CONTROL DATA 4 1> NUMBER OF SIMULATION.SEASONS (141only) .......... 14 2> ROW SEASON SIMV -T NAME LATE SEASON ` --- -----1------ ---2---- 1 ..JANUARY Y 2 .FEBRUARY, Y 3 ....MARCH Y - 4 ..'..APRIL Y 5 ......MAY Y , 6 .....JUNE Y 7 .....JULY Y a ...AUGUST Y 9 SEPTEMBER Y 10 ..00TOBER Y 11 .NOVEMBER Y • t Page 2 < < < Da,t.e-12.f11!8i' User -PAT KELLEY Pr•ogr•�.m-FORMAT > > > Run -KEVIN &'PAM MOSER Project -ADDITION Ei1.e-NONE 12 . DECEMBER,. Y 13 PEAK_HEATING N 14 PEAK COOLING N 1.5 SEASON OUTPUT SPECIFI°CATIONS 1> COPY OF INPUT DATA (YES,.Y NOor N).: ....:.. a , � ...... til � 2> AMBIENT SUMMARY (YES, Y, NO, or N) 3> ZONE LOADS (YES, Y, NO; or N) : N: 4> ZONE HEAT FLOWS (YES, Y,, NO, or N) . ................ N 5> MASS SUMMARY (YES; Y, -NO., or N)N ........... 6> TEMPERATURE.SUMMARY (YES, Y, NO, or N) .....:...... N 7> PEAK CONDITIONS (YES, Y, NO, or N): N ' 1.6 DAILY OUTPUT SPECIFICATIONS 1>"BROW SEASON AMB- ZONE ZONE MASS TEMP.' NAME IENT LOADS .HEAT `SUM- SUM - SUM. FLOWS MAR`( MARL` --- ----=1------ --2-- =-3-- --4-- --5-- --6-- 1 ..JANUARY'. N N N N N 2 .FEBRUARY N N N N N 3 ....MARCH N N N N N 4 ....APRIL N' N N N N' 5 ......MAY N N N PJ N 6 .....JUNE N N N N N 7 .....JULY N N N N N` S ...AUGUST N N N N N 9 SEPTEMBER N N N N N A 10 ..00TOBER N N N N N 11 .NOVEMBER. N N N N N ' 12 .DECEMBER N N N N N 13 PEAK_HEATING N . N N N •N 14 PEAK_COOLING N N N N N 1.7 HOURLY OUTPUT SPECIFICATIONS 1> ROW SEASON AMB ZONE ZONE' MASS TEMP. TEMP. NAME IENT LOADS HEAT SUM- SUM- GRAPH SUM. FLOWS MARY MAR`( --- -----1------ -=2--.--3-- --4-- --5-- --6-- --7-- 1 ..JANUARY .N N N N N N 2 . FEBRUARY N N N' N N +N 3 ....MARCH N N N N N N 4 ....APRI'L N N N N N N' 5 ......MAY N' N N N N N 6 .....JUNE N N N N N N- 7 ..... JULY N N N ,'N N N 3 ...AUGUST N N 'N N N - N. 9 SEPTEMBER N N N, N• N N 10 ..00TOBER N N -'N N N N 11 .NOVEMBER. N N 'N N N N 12 . DECEMBER- N N N` N N N 13 PEAK -HEATING N N N N N hJ 14 PEAK_COOLING N N N N N. N Page 3 < < < Date -12/11/89 User -PAT KELLEY Program -FORMAT > > > Run -KEVIN & PAM_MOSER Project-ADDITIONFile=NONE ------------------------ ZONE DATA , 2.0 ZONE DATA 1> ZONE CONDITIONED INDICATOR ('P' only) r.......... P 2> ZONE NAME (HOUSE,.etc.) ........ HOUSE 3> FLOOR;AREA (square feet) ............. ............. 2002 4> VOLUME (cubic feet) ................................ 16016 5> ADDITIONAL ZONE HEAT CAPACITY,(Btu/F) 0 6> INTERNAL GAIN SCHEDULE (°INTERNAL, etc.)..: ............ INTERNAL 7> INFILTRATION CONTROL KEYWORD (''STANDARD'.or, '.TIGHT`) : STANDARD 8> HEAT EXCHANGER SYSTEM NAME (NONE only, fixed) : NONE 9> HEATING SYSTEM NAME (FURNACE,.RESIST, etc.) .. HEATPUMP 10> COOLING'SYSTEM NAME (AC, HEATPUMP,.etc.) ......... HEAT PUMP 11> VENTILATION SYSTEM NAME (NATURAL c,nly, fired) . .... NATURAL 12> WATER HEATER TYPE KEYWORD (TANK, INSTANT, etc,.) .. TANK. 13> HEATING THERMOSTAT NAME (HEATSETB or HEATCNST) HEATSETB 14> COOLING THERMOSTAT NAME (COOLCNST only) ...:...... COOLCNST } OPAQUE SURFACE WITH SOLAR'GAIN DATA r 3.1 OPAQUE SURFACE WITH SOLAR GAINS DATA 1> NUMBER'OF SURFACES (20 maximum) 2> ROW OPAQUE AREA U -VALUE . SURFACE (sf) (Btu/.sf NAME =F) . 6 ,AZIMUTH TILT ZONE OPAQUE BUDGET (deg.) (deg.) NAME SURFACE SURFACE ---1---- ---2-=-- -3---- ---4---- 1 NWALL 135 -. 0 92 - 0- " 0 2 EWAL.L 320 0.092 90 3 SWALL 512 0.092 180 4 WWALL 302' 0.092. 270 5 ROOF 0 0.035 ' 180 5 DOOR 56 0.33 • 130' M ,3.2 OPAQUE SURFACE WITH SOLAR GAINS TYPE DATA 1> NUMBER OF SURFACE TYPES (20 maximum) : ............... 4 2> ROW SURFACE R- FORM 3 LOCATION USER TYPE VAL REFER- and/or NOTES NAME TYPE TYPE COMMENTS --- ---1---- -2- 90 HOUSE R1IWALL NEW 90 HOUSE. ' P,1 1 WALL NEW 90 HOUSE. R1IWALL NEW 90 HOUSE RIIWALL NEW 90 HOUSE R 8ROOF NEW .?0 HOUSE DOOR NEW ,3.2 OPAQUE SURFACE WITH SOLAR GAINS TYPE DATA 1> NUMBER OF SURFACE TYPES (20 maximum) : ............... 4 2> ROW SURFACE R- FORM 3 LOCATION USER TYPE VAL REFER- and/or NOTES -----------5----------- NONE NONE NONE UNINSULATED DOOR NAME ENCE) COMMENTS --- ---1---- -2- ---3---- --------4--------- 1 R1IWALL it WALLOI' EXTERIOR WALL 2 R19WALL 19 WALL02 EXTERIOR WALL 3 R38ROOF 30 ROOF01 ROOF W1 ATTIC 4 DOOR 7 DOOROI TYPICAL DOOR, -----------5----------- NONE NONE NONE UNINSULATED DOOR � Page 4 ( < < < ' Date -12/11/89 User `pAT KELLEY ^ Program -FORMAT > > > Run -KEVIN & PAM MOSER Project-ADDlTlON 'File'NONE ' / ' . . GLAZING SURFACE DATA' . . . ' ^ 4.1 GLAZED SURFACES 1> NUMBER OF SURFACES (2O max imurn) : ..................,. 4' 2> ROW GLAZED AREA ' � AZM. TILT ZONE � . SURFACE TREAT- BUDGET SURFACE (sf) ' deg. deg. NAME TYPE MENT SURFACE NAME NAME KEYWORD, --- ---1---- -7-2---- �-3-- --4-- +-7-5---- --- 6-- ---'---- --�-8--_- I 1 NGLASS 65 O 90 HOUSE ' DBL01 . OVERHNG2-NEW 2 EGLASS 24 90 ' 90 HOUSE DB �U1 _ OV G2 NEW 3 SGLASS 120 1{90 90 'HOUSE-. 'nRLOi OVERkNH2 NEW 4 WGLASS 18 . 270 90 HOUSE DBL01 OVERHNG2 NEW . 4.2 GLAZING SURFACE TYPE'DATA ' � 1> NUMBER OF SURFACES . ' `O max imum) � . . �.. � . . ... . �. � , . . . �, 2> ROW GLAZING FRAME VENT U-' GLAS lNTERlOR-lNT� �5 EXTERIOR EXT. TYPE TYPE TYPE' VALUE ALONE SHADING. DEV~ 'SHADING DEV. NAME KEYWORD' KEYWORD ' S.C.- DEV NAME S.C. DEV NAME S.C. --- ---1 ---- ---2---- ---3---- -�4-- --5-- ---6---- ---- --9-- 1 DBL01 METAL SLIDER 0.60 '0;77 STANDDRP 0.66NONE 1.00 2 DBL02' METAL FIXED 0.60 , O'.77 STANDDRP O .6- N8NE 1.00 3 DBL03 WOOD HINGED 0.60 0..67 STANDDRP 0.5' NONE 1.80 4 SINGLE METAL SLIDER 1.1� 0.88 'STANDDRP 0.80NONE 1.00 5. EXTSHADE METAL SLIDER 0.601 0.77 'EXTSCRN ' NONE ^ 0.36 4.3 GLAZING TREATMENTS 1> NUMBER OF TREATMENTS (1'0 maximum) : . . .�. . � .'' 2 .' 2> ROW TREAT- GLS. OVER OVER SHADING '.SHUT .. SHUT . SHUTTER MENT HT. HANG HANG SCHED' ^U-VAL TRAN. SCkED. NAME LEN. H�� NAME -UE FACT. NAME --- ---1 ---- --2-- --3-- --4-- ---5---- -� � -_ -_7-- --�+8---- 1 OVERHN01 4,0 1.5 0.75 NONE ' U g' '' NON � ' 2 OVERHNG2 5.0 2.5 O.75 NONE. U O ' NON' / ' 4.4 ABSORBED INSOLATION -FRACTIONS � ~ ` 1> NUMBER OF FRACTIONS - ` <0 only, fixed) - . : . , . ... . . . . . .�. . . . O ' -. . � . . . � . . . . .' ' ` Page 5 4, < < < .Date -12/11/89 User -PAT KELLEY > > > Run -KEVIN & PAM MOSER Project -ADDITION' File=NONE OPAQUE SURFACE WITHOUT SOLAR GAIN DATA, 1> NUMBER OF TYPES (20 maximum) 2> ROW SURFACER- INSUL FORM 3 TYPE VAL.DEPTH REFER- ENCE.) --- ---1---- -2.- --3--.---A---- 1 FLOOR01 38 12-•-FLOORI 2 NSWALL01 19 6 WALL5 3 FLOOR02 .0 0 FLQOR2 MASS DATA 6.0 MASS DATA ......... 3 LOCATION USER and./or NOTES COMMENTS ---=----5--------- --------6--------- FLOOR @ CRAWLSPACE NONE GARAGE WALL NONE SLAB, EDGE NONE 1> NUMBER OF MASSES (5"max.imum) . ...... ... ....... 2 MASS #1 1> MASS NAME (SLAB, MASSWALL, WATER, etc.) ....... 2> TYPE (NODAL, ISOTHERM) ......... ... .... 3> SURFACE AREA (sf) .......,..... ............ 4> THICKNESS (inches)..... .. .. .. 5> VOLUMETRI'C HEAT CAPACITY (:Btu/cf-F) 6> CONDUCTIVITY (Btu-ft/hr•-sf-F) ................... 7> SIDE #1 MASS. SURFACE NAME (SLABTIOP, etc.) : ......... 8> SIDE #1 SURFACE CONDUCTANCE (Btu/hr=sf-F),: ..... .: 9> SIDE #1 ZONE NAME (HOUSE, AMBIENT,, Etc.) :............. 10> SIDE #2 MASS SURFACE NAME (SLABBOT,•etc.) : ........ 11> SIDE #2 SURFACE CONDUCTANCE (Btu/hr-sf-F) . ..... 12> SIDE #2 ZONE NAME (HOUSE; AMBIENT,,GROUND, etc.) 13> INSULATION R -VALUE (R-Value3) ...... .............. 14> FORM 3 REFERENCE (name) ... ... ... ......... 15> LOCATION/GCIMMENTS (text, •18 char.`),... .......... 16> BUDGET MASS TYPE (NEW, CHANGING,,EXISTING) : ..... 17> SLAB ON GRADE `INDICATOR <YES,, ,'(, NO, :or 'N) : ........ SLABEXP NODAL, 502 3.5 28 0.98 SLBTOPEX 1.3 HOUSE SLBBOTEX 0. GROUND 0 NONE EXP SLAB -ON GRADE NEW Y a 5.1 OPAQUE SURFACE WITHOUT SOLAR GAINS DATA 1> NUMBER OF SURFACES (20 maximum) ......:............ 3 2> ROW SURFACE AREA U-VALU INSIDE SURFACE • SURFACE BUDGET NAME (sf) (Btu/s' ZONE KEYWORD *,TYPE-* SURFACE -F) . NAME KEYWORD 1 HSECRLFL 2002 0.030. HOUSE • WALL FLOOROI "NEW 2 INTWALL 151 0.090- HOUSE ; WALL NSWALL01 NEW 3 SLABEDGE 146. 0.75 . HOUSE WALL FLGOR02 ""NEW, 5.2 OPAQUE SURFACE WITHOUT SOLAR GAINS TYPE DATA 1> NUMBER OF TYPES (20 maximum) 2> ROW SURFACER- INSUL FORM 3 TYPE VAL.DEPTH REFER- ENCE.) --- ---1---- -2.- --3--.---A---- 1 FLOOR01 38 12-•-FLOORI 2 NSWALL01 19 6 WALL5 3 FLOOR02 .0 0 FLQOR2 MASS DATA 6.0 MASS DATA ......... 3 LOCATION USER and./or NOTES COMMENTS ---=----5--------- --------6--------- FLOOR @ CRAWLSPACE NONE GARAGE WALL NONE SLAB, EDGE NONE 1> NUMBER OF MASSES (5"max.imum) . ...... ... ....... 2 MASS #1 1> MASS NAME (SLAB, MASSWALL, WATER, etc.) ....... 2> TYPE (NODAL, ISOTHERM) ......... ... .... 3> SURFACE AREA (sf) .......,..... ............ 4> THICKNESS (inches)..... .. .. .. 5> VOLUMETRI'C HEAT CAPACITY (:Btu/cf-F) 6> CONDUCTIVITY (Btu-ft/hr•-sf-F) ................... 7> SIDE #1 MASS. SURFACE NAME (SLABTIOP, etc.) : ......... 8> SIDE #1 SURFACE CONDUCTANCE (Btu/hr=sf-F),: ..... .: 9> SIDE #1 ZONE NAME (HOUSE, AMBIENT,, Etc.) :............. 10> SIDE #2 MASS SURFACE NAME (SLABBOT,•etc.) : ........ 11> SIDE #2 SURFACE CONDUCTANCE (Btu/hr-sf-F) . ..... 12> SIDE #2 ZONE NAME (HOUSE; AMBIENT,,GROUND, etc.) 13> INSULATION R -VALUE (R-Value3) ...... .............. 14> FORM 3 REFERENCE (name) ... ... ... ......... 15> LOCATION/GCIMMENTS (text, •18 char.`),... .......... 16> BUDGET MASS TYPE (NEW, CHANGING,,EXISTING) : ..... 17> SLAB ON GRADE `INDICATOR <YES,, ,'(, NO, :or 'N) : ........ SLABEXP NODAL, 502 3.5 28 0.98 SLBTOPEX 1.3 HOUSE SLBBOTEX 0. GROUND 0 NONE EXP SLAB -ON GRADE NEW Y a Page 6 < < < Date712/11/89 User -PAT KELLEY. Program -FORMAT > > > Run -KEVIN & PAM MOSER .-Project=AUDITION '.Fi 1,e -NONE MASS #2 ` 1> MASS NAME (SLAB, MASSWALL, WATER, etc.) .. ..SLABC:RPT 2> TYPE (NODAL, ISOTHERM)`.• ...... ................ NODAL 3> SURFACE AREA (sf) ......}1500 4> THICKNESS (inches)'• ..... 315 5> VOLUMETRIC HEAT CAPACITY.(Btu/cf=F) :•.... 28 6> CONDUCTIVIT`( (Btu-f't/hr=sf-F) 0.98 7> SIDE #1 MASS SURFACE NAME (SLABTOP,..etc.) : SLBTOPCP 8> SIDE #1 SURFACE CONDUCTANCE,(Btu/hr•-sf-F) • .. 0•36 9> SIDE #1 ZONE NAME (HOUSE, AMBIENT, etc.) : .......... HOUSE 10> SIDE #2 MASS SURFACE*NAME (SLABBOT,,etc'.)': ........ SLBBOTCP II> SIDE #2 SURFACE -CONDUCTANCE (Btu/hr-.sf-F) : ........ 0. 12> SIDE #2 ZONE'NAME (HOUSE, AMBIENT, GROUND; etc.) GROUND 13> INSULATION R -VALUE (R -Value) ..... 0" 14> FORM 3.REFERENCE (name) ..•..... NONE 15> LOCATION/C•OMMENTS (text, IS char.) ..CRPT SLAB ON GRADE 16> BUDGET MASS TYPE, (NEW -CHANGING;- EXISTING). a ..... NEW 17> SLAB ON GRADE INDICATOR (YES, Y,- NO, orN) . .... Y; SYSTEMS DATA ------------ 7.1 AIR-TO-AIR HEAT EXCHANGER SYSTEMS I> NUMBER OF HEAT EXCHANGER. SYSTEMS (0 only) ......... 0 7.2 HEATING SYSTEMS J> NUMBER OF HEATING SYSTEMS -(_0 maximum) . , .......... 1. 2> ROW HEATING HEATING HEATING RATED DUCT/ BUDGET SYSTEM FUEL EFFIC- CAPACITY-LOC-INS..HT-SYST NAME NAME I ENCY (,Btu'/hr) KEYWORD TYPE --- ---1---- ---2---- ---3---- ---4=--- -5---- ---6- - 1 HEATPUMP FUEL 6.85 500000 ATTIC6 NEW 7.3 COOLING SYSTEMS t' , 1> NUMBER, OF COOLING SYSTEMS (3 maximum) ........:....: 1 2> ROW COOLING'SEASONAL COOL-ING LATENT DUCT/' BUDGET' SYSTEM EER CAPACITY LOAD LOC -INS. CL SYST NAME . ( Btu/Wh) , ( Btu/hr• )' FRACTION KEYWORD .T,YPE -^---- 1 HEATPUMP 9 500000`0 1,ATTIC6 NEW . - a Page 7 < < < Date -12/11/89 "User' -PAT KELLEY Program -FORMAT > > > Run -KEVIN & PAM MOSER ProJect-ADDITION File -'NONE r 7.4 VENTILATION SYSTEMS v 1> NUMBER OF VENTILATION SYSTEMS (I on'.1y, fixed) ...... 1 2> ROW VENT. FAN FAN. TEMP. ADDN'L ADDN-L BUDGET , SYSTEM FLOW POWER DIFF. VENT HEIGHT VENT. NAME (cfm) W/cfm (.F) AREA. DIFF. -TYPE 1 NATURAL 0' 0 0 0 0 NEW 7.5 THERMOSTAT SYSTEMS 1> NUMBER OF THERMOSTAT SYSTEMS (6 maximum) 3 2> ROW THERMO— MINIMUM MAXIMUM DESIRED MIN. -MAX. DESIRED HOURLY STAT TEMP. TEMP. TEMP.- SET- SET SET- SCHEDULE NAME (F) (F)", (F), BACK BACK BACK( F) NAME ------1-------�--- -3--- ---4--7 - �- --c.-- ---7--= ---8---- 1 HEATSETB 68 78 77 60 73 77 SETBACK 2 •HEATCNST '68 78 77 0 0 J Ci NONE 3 COOLCNST 60. '78 68 0 0 01 NONE WATER HEATING DATA 8.1 STORAGE WATER HEATER DATA 1> WATER HEATER TYPE (SG or SE) ................... SG 2> MANUFACTURER (name) .... ...... NONE 3> MODEL NUMBER (number) . ............................... NONE - 4> IGNITION TYPE (GP or IID_) .. ....................... II,DIF : 5> TANK VOLUME (gallons) . ................. ............ 50 6> RECOVERY EFFICIENCY (percent) ..........`........... 95�.5 7> STANDBY LOSS (percent/hour) ....................... 1:00 8> RATED INPUT (Btu/hour)—: 4000 9> NUMBER OF WATER HEATERS (number) : .................. 1 10> NUMBER OF PUMPS (number) 01 11> PUMP ENERGY (Watt-hr/year) ........................ 0 12> CREDIT NAME (ASOLAR,HWRS,WSS, Etc.) NONE 13> ANNUAL SAVINGS (KB t'u/,ve ar•) ..................... 0 8.2 INSTANTANEOUS WATER HEATING DATA •1� w 1> WATER HEATER.TYPE (IG -or IE) ........................ 0 2> MANUFACTURER (name) ....... .: .. NONE 3> MODEL NUMBER (number) ...... ..et... ......... .... NONE 4> IGNITION DEVICE -(GP or IID).. .....:....... .. IID 5> RECOVERY EFFICI'ENC`( (percent) . .... ............... 76 6> NUMBER OF WATER HEATERS (number) : ... 01 7> NUMBER OF PUMPS (number) .....,.................:.... 0 8> PUMP ENERGY (Watt-hr/year)) 0 9> PILOT LIGHT ENERGY -(GAS: KBtu/yr•, ELECT: N/A) : ..... 0 10> CREDIT NAME-(ASOLAR,HWRS,WSB,.etc.-) .............. NONE`. 11> ANNUAL SAVINGS (KBtu/year) ......................... 0, . 4 7. Page 8 < < < Date -12/11/89 User -PAT KELLEY Pr gyr arn-FORMAT, > > > Run -KEVIN tat PAM MOSER Project -ADDITION File' -NONE ------------- 3.3 HEAT PUMP WATER HEATER'DATA . 1> WATER HEATER TYPE ,(HPWH only) ..................... 0• � 2> MANUFACTURER (name) . ............. .. ........... NONE 3> MODEL NUMBER (number) .........................NONE 4> ENERGY FACTOR (from GAMA directory) : ............... 0 5> NUMBER OF PUMPS (number) . .."....:.." ................. 0' 6> PUMP ENERGY (Watt-hr/year) ........................... 0 7> CREDIT NAME (ASOLAR,HWRS,WSB, etc.),: ........:..."..."NONE 8> ANNUAL SAVINGS (KBtu/year•) . ....................... 0 ` 8.4 EXTERNAL CALCULATIONS DATA 1> EXTERNAL CALCULATION ENERGY (KBtu/year•) ........... O SCHEDULE DATA 9.0 HOURLY SCHEDULES " N 1> NUMBER OF HOURLY SCHEDULES (2 maximum) ........... 2 HOURLY SCHEDULE #1 1> HOURLY SCHEDULE NAME (INTERNAL, SETBACK) : ........... INTERNAL 2> HEATING HOURLY SCHEDULE -DATA .(fraction) 1. 0.024 2. 0•.022 3. 0.021 4. 0.021 5. 0.021 6. 0.026 7.' 0.038 ;8. 0.059 9. 0.056 10. 0.060 11. 0.059 .12. 0.046 .13..0.045 14. 0.030 '15. 0.028 16. 0.031 17. 0.057 13. 0.064 19. 0:064 20. 0.052 21. 0.050 22..0.055 23'. 0.044 .24. 0.027 3> COOLING HOURLY SCHEDULE DATA (fraction) 1. 0.024 2. 0.022 3. 0.0214. 0.021. 5. 0.021 6. 0:026 7. 0.038 8. 0.059 9. 0.056 10. 0.060 11. 0.0159 .12. 0.046 13. 0.045 14'. 0.030 15: 0.028' 16. 0.031 17. 0.057 '18. 0.064 '19. 0.064 20.•0.052 21. 0.050 22. 0.055 23. 0.'044 24. 0.027 HOURLY SCHEDULE #2 • f 1> HOURLY SCHEDULE NAME (.INTERNAL, SETBACK) .......... SETBACK 2> HEATING HOURLY SCHEDULE DATA (fraction) 1. 0 2. 0 3. 0 4. 0 5. 0 6. 0 7. 0 8. 1 ' 9. 1 10. 1 11. 1 12. 1 13. 1 14. 1 15. 1 16. 1 17. 1 18.. 1 19,. 1 20. 1 21. 1 22. 1 23. 1 24.* 0 3> COOLING HOURLY SCHEDULE DATA (fraction) 1. 0 0 3. 0 4• 0 5. 0 6. 0 7. 0 8. 1 9. 1 10. 1 11. 1 12. 1 13. 1 14. 1 15. 1 16. 1 17. 1 1s. 1 19. 1 , 20. 1 21. 1 22. 1 23. 1 24. 0 FORM J -1T (Transparent) Including Calculation Procedures A, B, C, D Plan No. Copyright by the Date Air Conditioning Calculated by Contractors of America Formerly: National Environmental Systems Contractors Association 1228 17th Street N.W. Washington, D.C. 20036 Printed in U.S.A. WORKSHEET FOR MANUAL J ' 1983 . LOAD CALCULATIONS FOR RESIDENTIAL AIR CONDITIONING For: Name <e >V1N IV— P/.f AA it/I 0 5 e "e -- Address S/Ld C C".iLGG & ©'e /Sia - City and State or Province '. 1Y Q Ain/ 7—- - C.4 0 By: Contractor " �E e L E ./ZZ-4ZZ-46C %'-/ C H Ka Address 83-/9 i 5'/E"le..e/9 /- t. 19 -347-S2 33 City / N D/ D C �• s-0 / Design Conditions Winter -7 w� c Summer Outside db — ° F Inside db--- ° F Outside db �srs_ ° F Inside db 7 g 'F Winter Design Temperature Difference 3 °F Summer Design TemperAture Difference °F Room RH $O�c3 Daily -Range -3 O Heating Summary /.moi 33 Btuh Total Heat Loss foe Entire House (Line 15) = 9 °F Ventilation CFM = 9' Winter Design Temperature Difference = = . Heat Required for Ventilation Air = 1.1 X k CFMX 3 y °F 2 %S Btuh � Z3L Btuh • Design Heating Load Requirement = 3/ g 3 3 (house) 2' S (Vent) _ —. Cooling Summary Total Sensible Gain 3144.& Btuh (Calculation Calculation Procedure D) Design Temperature Swings Total Latent Gain + / 3 $d Btuh (Calculation Procedure D) Normal 30 (><, ) 4.50 ( _ Total = Sens. + Lat. _ B Btuh Ventilation CFM Edi S r//V,2-r, MIf aj cNE Equipment Summary �^ Model Type rj'PLl / $yS Make - ylg �O-O Heating Heating Input Output (Btuh) g G Efficiency 3 (Btuh) ,}_� Sensible Cooling (Btuh) Latent Cooling (Btuh) Total (Btuh) COP/EER/SEER/HSPF 6 3 Cooling CFM Heating CFM ( ) Cool ( ) Heat/Cool ( ) Night Setback ( Space Thermostat Heat 7� ). Construction Data S tA1Q,C 9` Eu% Floor Windows Z_L— X> tom. t_?_ e- G-�L/Q' . Partitions Doors Q /ii t f L. fC6� o LE /PG� �j�/9 4S W 1170'- Basement Wails Wapptis 5?C M - _1" Ground Slab d` Al C,' IC /9' Roof. Cellin n D s, cra 1 Name of Room Entire House 120 2 C!%L7S 1.3 S �.� /7` 4 L�IgS'� 5 2 RunningFt-ExposedWall 3 a �� 36 e,/G 3 Room Dimensions, Ft nd Glass E &\W or NE & NW 70�42,Z 5ylQ 4 Ceiling Ht, Ft Directions Room Faces TYPE HTT,1 Area Btuh Area Area Btuh Btuh Area Btuh Area OF EXP, SURE : Const. No. Htg _ Clg or Length Htg Clg or Length or Htg Clg length ; Htg Clg or Length Htg Clg or Length . HI --- --- ---- Y 31.0 I (p3'z 3?.0 5 Gross a Exposed b �p ' Walls and c - Walls and c Partitions d 1 I — 6 Windows a / So �2% y3 s0 4,5 ' i nd Glass b ! 10 Ceilings a A/ A%j 2- -x Dors. c s 'OO y '1,604 I (Heating) Btuh Area Btt or Clg Length I }itg j 7 Windows North S 2.7 P nd Glass E &\W or NE & NW 70�42,Z 5ylQ `� Doors South or SE &%W 7 /Z O 1 A Other Doors q -V /p 3. �t r 9 Net a 1 J �� _ 1s3 3��t:".._a! _.; . .. . 3� --- --- ---- ---- Exposed b no S/ - Walls and c 1 I — Partitions d ' i 10 Ceilings a A/ A%j 2- -x 10 0 s 'OO y '1,604 • b 11 Floorsrb ! I �r7 12 Infiltration... Calc. Proc. B Htm= 1 z,% 3 13 Sub Total Btuh Loss = 6+3 »9=10-11 29A?b I I ! T- 14 1 Duct Btuh Loss 15 Total Btuh Loss = 13-1 1 16 People ® 300 and Appliances 1200 17 Sensible Btph Gain= 74 84 S4 :. ,1. 12- 18 Duct Btuh Gain ;; °� 19 1 TMwI Con.0,1 Gain = 1'-=•1:: SID - , I I ! r Calculation Procedures A, B, C, D Calculation Procedure A • Summer Infiltration. for the Entire House �.• 1. Air Changes Per Hour from Table 5 ..................................................... AC/HR '2. Volume of Conditioned Space ..................... = Floor Area X Ceiling Height �� _ ( 1,->O 2- ) Sq. Ft. X (�) Ft. Cu. Ft. 3. Total Infiltration = a ' 3 AC/HR X / b 1 L Cu. Ft. X 0.0167 CFM Calculation Procedure B • Summer Infiltration Him For Windows & Doors 1. Design Temperature Difference = Summer Design - Room Temperature =�' °F 2. Total Infiltration from Calculation Procedure A ....................................... , . _ CFM 3. Sensible Gain = 1.1 X -31 *FX $ CFM ...... _ '-� Btuh 4. Total Area of Windows and Doors (Lines 7 & 8 on J) ..................................... = Sq. Ft. 5. Htm = Btuh + Sq. Ft............ = Btuh/Sq. Ft. Calculation Procedure C • Latent Infiltration Gain For The Entire House 1. Grains of Moisture Difference from Table 1 ............................................ FM 2. Total Infiltration from Calculation Procedure A.....................................CF� _ Btuh 3. Total Latent Load = 0.68 X gr X = Calculation 'Procedure D • Equipment Sizing Calculation Temp. Swing Multipliers Vent CFM Summer DSN 41/2 ° 3° Mechanical Ventilation = Design Temp. Diff. (No. 1; Calculation Procedure B) °F Diff. 85-90 0.85 95 0.90 0.95 1:00 Design Grains (No. 1; Calculation Procedure C) 9r 100 0.95 . 1.00 Desired Temp. Swing ( ) 105 1.00 1.05 Temp. Swing Multiplier (TSM) = 110 1.05. 1.10 Sensible Ventilation Load = 1.1 X Vent CFM X °F Diff. � y$ (� c� O Btuh Btuh Sensible Load for Structure from Line 19 ...... • • • • ...... , (Structure Load + Ventilation Load) _ `— Btuh Total Sensible Load ................................. - Temp Swing Multiplier ........... X (TSM) nature Equipment Sizing Load, �ensible ........ _ �,� L D Btuh Appliances &People = 230 X 4v No. of People ............... Latent Load for App 13 :?0 — Btuh Btuh X gr (No.1 Calc. Procedure C)+ Latent Ventilation Load = 0.68 X Vent CFM -r Btuh Latent Infiltration Load from Calculation Procedure C Equipment Sizing Load, Latent .......... _ 3 Btuh Sizing Loads on the Cooling Summary on the Front of the J-1 Form. Enter the Equipment Mandatory Measures Checklist: Residential ,; MF -1R NOTE: Lowrise residential buildings subject to the Standards must contain these measures regardless of the -jompliance approach used. Items marked with an asterisk (*) may be superseded by more stringent compliance requirements listed on the Certificate of Compliance. When this checklist is incorporated into the permit documents, the features noted shall be considered by all parties as binding minimum component performance specifications for the mandatory measures whether they are shown elsewhere in the documents or on this checklist only. DESCRIPTION I DESIGNER I ENFORCEMENT I' Building Envelope Measures * §2-5352(a): Minimum ceiling insulation R-19 weighted average. §2-5352(b): Loose fill insulation manufacturer's labeled R -Value. * §2-5352(c): Minimum wall insulation in framed walls R-11 weighted average (does not apply to exterior mass walls). §2-5352(k): Slab edge insulation - water absorption rate no greater than 0.3%, water vapor transmission rate no greater than 2.0 perm/inch. §2-5311: Insulation specified or installed meets California Energy Commission (CEC) quality standards. Indicate type and form. §2-5352(f): Vapor barriers mandatory in Climate Zones 14 and 16 only. §2-5317: Infiltration/Exfiltration Controls a. Doors and windows between conditioned and unconditioned spaces designed to limit air leakage. b. Doors and windows certified. c. Doors and windows weatherstripped; all joints and penetrations caulked and sealed. §2-5352(e): Special infiltration barrier installed to comply with §2-5351 meets CEC quality standards. §2-5352(d): Installation of Fireplaces 1. Masonry and factory -built fireplaces have: a. Tight fitting, closeable metal or glass door b. Outside air intake with damper and control c. Flue damper and control 2. No continuous burning gas pilots allowed. HVAC and Plumbing System Measures §2-5352(8) and 2-5303: Space conditioning equipment sizing: attach calculations. §2-5352(h) and 2-5315: Setback thermostat on all applicable heating systems. * §2-5316(a): Ducts constructed, installed and insulated per Chapter 10, 1976 iTMC. §2-5316(b): Exhaust systems have damper controls. §2-5314(c): Gas-fired space heating equipment has intermittent ignition devices. §2-5314: HVAC equipment, water heaters, showerheads and faucets certified by the CEC. §2-5352(1): Water heater insulation blanket (R-12 or greater) or combined interior/exterior insulation (R-16 or greater); fust 5 feet of pipes closest to tank insulated (R-3 or greater). §2-5312(Excepdon I): Pipe insulation on steam and steam condensate return & recirculating piping. §2-5318(d): Swimming Pool Heating 1. System has: a. On/off switch on heater. b. Weatherproof instruction plate on heater. c. Plumbed to allow for solar. 2. 75 percent thermal efficiency. 3. Pool cover. 4. Time clock. 5. Directional water inlet. Lighting and Appliance Measures §2-53520): Lighting - 25 lumens/watt or greater for general lighting in kitchens and bathrooms. §2-5314(c): Gas fired appliances equipped with intermittent ignition devices. §2-5314(a): Refrigerators, refrigerator -freezers, freezers and fluorescent lamp ballast§ certified by the CEC. Indicate make and model number. Form Revised December 1987 0 thermostats - T282A, T882A, TS882A CHRONOTHERM CLOCK THERMOSTATS --- FOR COMPLETELY AUTOMATIC NIGH T SETBACK—MORNING �;. PICKUP TEMPERATURE ....`. CONTROL OF A HEAT- 7Or ING SYSTEM OR AUTO- ,. MATIC DAY SETUP FOR COOLING SYSTEMS. Adjustable program auto- matically lowers and raises temperature control point for one period in every 24 hours. Pickup and setback times need only be set once for continuous operation of the system. Thermostat and concealed wallplate mount on wall or horizontal outlet box. •0611 Subbase can be added to T882A to'provide system and fan switching for heating -cooling control. AT75A, AT82A .or R7305A,B power supplies only may be used to power the electric clock. Temp. Setting Range: 54 to 86 F [12 to 30 C]. Timer Min. Period on HI Setting: 5.1/2 hours. Timer Min. Period on LO Setting: 4.1/2 hours. Approx. Dimen- sions: 3.3/8 in. [85.8 mm] high, 6-1/16 in. (154 mm] wide, 2.1/8 in. [54 mm] deep. ELECTRICAL RATINGS: T282A and T882A (50/60 Hz): APPLICATION RUNNING INRUSH Heating 1.5 amp 3.5 amp Cooling (T882A) 1.5 amp 7.5 amp TS882A: 0.1 amp at 0.75V dc.' Clock power consumption: 1.66 watts. TRADEL INE models. HEAT ANTICIPATORS: T282A—nonadjustable voltage type heat anticipator rated at 25 volts. T882A—heat anticipator adjustable 0.1 to 1.2 amp; nonadjustable cooling anticipator is rated at nominal 29 volts. TS882A—nonadjustable heat anticipator rated at 0.1 amp. ,,"ACCESSORIES: Q611 Subbase for system and fan switching. Not for use with R7305A Chronotherm Power Supply (switching subbase is furnished with R7305A). R7305A Chronotherm Power Supply—for replacement of existing low voltage thermostat with Chronotherm Clock Thermostat and utilizing the existing 2 wires. R7305B Chronotherm Power Supply—for replacement of existing line voltage thermostat with Chronotherm Clock Thermostat and utilizing existing 2 wires. 130821A Mounting Plate Assembly—for mounting on vertical outlet box or for covering -marks from old thermostat. 1308216 for mounting on horizontal outlet box or for covering marks from old thermostat. AT82A1024 Plug-in' .Clock Transformer for powering clock in heating -only or heating -cooling application. 104994A Calibration Wrench. AT75A 1036 REPLACEMENT PARTS: 129984A Clock Motor (for 60 Hz). 129802A Cover Assembly. Thermostat Guards. See Thermostat Guards section,. page 231. ORDER APPLICATION HEAT ANTICIPATOR SWITCH INCLUDES USE WITH NUMBER RATING ACTION T282A1024 3 -wire, low voltage 24V, nonadj. Spdt AT75A Transformer for heating. (Series 20) powering clock section. T882A1005 2 -wire, low voltage heating only or 0.1 to 1.2 amp, adj. Spdt AT75A Clock Transformer or AT82A1024 Plug-in Clock Transformer and thermo- T882A1047 Spdt AT75A Transformer for heating -cooling systems (use powering clock section. stat wallplate or AT75A orAT82A1024 and Q611 Subbase (heat -cool) to pro- T882A1054a Spdt AT75A Transformer for . 0611 A, B). powering clock section. vide automatic control. R7305A or B Power Supply and T882A1 Spdt Cool anticipator sized for gas air conditioning; 129918DA or 129918EA• Wallplate gas flame logo; AT75A (heat only) to provide 2 -wire Transformer for power- installation. ing clock section. 87305A Power Supply and 130180BA Subbase (heat -cool) to eliminate need T882A1104b Spdt for 2 extra wires -for clock. TS882A1010a 750 millivolt heat- 0.1 amp Spst AT75A Transformer for ing systems. nonadj. powering clock section. aWith positive OFF. bRange: 45 to 75 F 17 to 24 Cl. c Included witFi. TRADE LINE models. TWADELINE 215